M349465 八、新型說明: 【新型所屬之技術領域】 一種發光二極體燈管,應用於滿足光源的需 求,本創作尤指一種以發光二極體作為發光源, 其成型為一燈管型式,並可依管體長度進行多組 式串接,且可直接組設於現有燈座的發光二極體 燈管。 【先前技術】 近年來,有鑑於能源的有限及日漸的短缺, 節能的議題已成為世界各國之科技重視、且競相 發展及突破的目標,發光二極體被大量的應用的 即為一例,目前發光二極體的成品已趨成熟,亦 被大量的應用的「光需求」的使用,從早期的感 測光源、副光源到如今,已開始被應用於主照明 的光源,其主要的原因在於發光二極體目前的實 體產品,已逐漸可以滿足高照度及高功率化的應 用,故,若將其作為照明應用,已為指日可待的 不爭事實;坊間目前所應用的曰光燈管,為一種 密閉的氣體放電管, 管内主要氣體為氬氣 (argon)、另包含氖(neon)或氪(krypton),另外 包含微量的水銀,以形成微量的水銀蒸汽,其係 藉由管内導通的電流,使電子被加速,以形成氣 體放電狀態而發出『光』,目前,此類習知的曰 5 M349465 光燈管係已被廣泛的應用,然而,其存在的問題 包括耗電及污染,而發光二極體則相對的具有節 能及低污染的優勢,故,目前,市場上已有將發 光二極體製作成日光燈管的先例,例如,中華民 國專利公告第M2 7 2 9 2 4號「LED燈管結構改良」、 公告第Μ 3 2 0 6 3 6號「L E D燈管結構改良」,均係 揭露了一種以發光二極體製成的燈管,其主要均 係利用一電路板,承載複數顆發光二極體,利用 加總而成的光源,達到照明之光照度的要求,另, 於中華民國專利公告第Μ315299號「發光二極體 燈具」,則進一步揭露了一種以發光二極體製成 的燈管,且其包括了 一個鰭片式的散熱座,以供 其整體具有散熱的效果;上述幾類燈管目前或已 達成量產化,唯,在製程中,仍有其可再改進的 空間,如上所揭的數種燈管,其承載發光二極體 的電路板長度為固定,亦即,單一種尺寸的電路 板,僅可配合單一尺寸的燈管,若欲製造較長型 的燈管,則有關電路板的模具則需要重新開設, 如此,在製造成本上,將大幅的提升。 【新型内容】 有鑒於上述的問題考量,本創作者係依據多 年來設計相關產品的經驗,針對此類型燈管的結 構、組成、及製造流程進行研究及分析,期能找 6 M349465 到適切的解決方案;緣此,本創作主 於提供一種可以快速組構,且能因應 行多組式串設的發光二極體燈管,以 的組裝便利性,同時亦可大幅降低其 為達上述的目的,本創作主要係 構、電路板結構的特性,使其可以迅 互組設,並可依所組裝的燈管長度, 二極體的電路板進行多組式串接,以 本。 為使貴審查委員得以清楚了解 構、組合及其功效,茲以下列說明搭 參閱。 【實施方式】 請參閱「第 1圖」,圖中所示係 光二極體燈管的立體外觀圖,如圖中 作發光二極體燈管10主要係由一管 電性插接組(102、102’)、一發光二極選 以及一驅動電路控制模組1 0 4所組構 發光二極體模組1 0 3及驅動電路控# 係組設於管體1 0 1中,管體1 0 1本身 良好的聚碳酸脂樹脂(Polycarbonate, 入擴散劑製成,以使L E D的光源透過 達到光型均勻散開,取得良好配光曲 要的目的在 燈管長度進 提高製造時 製造成本。 利用燈管結 速的完成相 將載裝發光 降低製造成 本創作的結 配圖示,請 為本創作發 所示,本創 體 1 0 1、兩 【模組103、 而成,其中, I模組 1 0 4, 係由透光性 PC)材料滲 該管體後, 線,故,當 7 M349465 發光二極體模組1 Ο 3產生光源時,可均勻的 管體101,而達到提供照明光源的作用,又 圖所示,電性插接組(1 0 2、1 0 2 ’)係分別組設 體 101的兩端,其分別成型有兩插接端子 及1021’,供發光二極體燈管10可插設於一 中(本圖中未繒·示),而所述的燈座,即為目 般習知的日光燈座。 請參閱「第 2圖」,圖中所示係為本創 構件組成示意圖,承「第1圖」所示,發光 體模組1 0 3及驅動電路控制模組1 0 4,係組 管體1 0 1中,如圖,發光二極體模組1 0 3係 一電路板 1 0 3 1,主要供以承載複數個發光 體1032(本圖中尚未繪示),此電路板1031 設有複數組電路,例如交流電路、直流電路 且依需求,電路亦可包括串、並聯等型式, 電路板1 0 3 1係組設有一第一電性搭接部1 0 3 及一第二電性搭接部10312,其中之第一電 接部 1 0 3 1 1,係可使電路板 1 0 3 1與電性插 1 0 2完成電性連結,又,第二電性搭接部1 則可使電路板1 0 3 1與另一電性插接組1 0 2 ’ 電性連結;再請參閱本圖中所示,驅動電路 模組1 0 4之一端,係亦成型有一電性搭接部 以使驅動電路控制模組 1 0 4可與發光二極 組1 0 3完成電性搭接,又,此驅動電路控制 透出 ,如 於管 102 1 燈座 前一 作的 二極 設於 具有 二極 係佈 等, 另, 11' 性搭 接組 03 12 完成 控制 104 1 體模 模組 8 M349465 1 Ο 4亦為一電路板型式,經適當的電路設計後, 用以控制發光二極體模組1 0 3的電流導通情況, 例如交流電轉換直流電;組裝時,係將已預組成 型為一體的發光二極體模組 1 0 3及驅動電路控 制模組1 0 4,插設入管體1 0 1中,並利用成型於 管體 1 0 1内壁的定位肋 1 0 1 1,使插設後的兩電 路板受到定位,再使兩電性插接組(1 0 2、1 0 2 ’), 分別組設於管體1 0 1的兩端後,即可完成組裝, 其組裝完成後,即如「第1圖」中所示;再請參 閱本圖中所示,發光二極體模組103兩端的第一 電性搭接部1 0 3 U、及一第二電性搭接部1 0 3 1 2, 係可以其中一端先行與一電性插接組(1 0 2、1 0 2 ’) 完成預組裝,待整體組設於管體101中,再使另 一端與另一電性搭接部完成電性連結即可,而為 使組裝過程更加方便,電性搭接部與電性插接組 之間的組構,係可設計成連接器的型式(如圖中 的連接器1022’),如此,在組裝的過程中,將更 加的簡易,可有效提升組裝的速率。 請參閱「第3圖」,圖中所示係為本創作中 發光二極體模組的立體外觀圖,如圖,發光二極 體模組1 0 3平面上,係佈設了複數個發光二極體 1032,且各發光二極體1032之間,係由電路1031 完成相互的電性連結,使其經電流導通後,形成 一個面光源,又,本創作所揭之發光二體 1 0 3 2 9 M349465 的形式,係為表面黏著型(SMD),唯,亦可以燈 泡式發光二極體(Lamp)製成,請搭配參照「第4 圖」,圖中所示,為本創作的立體外觀圖(二)。 請參閱「第 5圖」,圖中所係為本創作中的 管體之剖面圖,如圖,管體101的内壁面係成型 有一組以上相對的定位肋 1 0 1 1,供發光二極體 模組1 0 3及驅動電路控制模組1 0 4組設時,可受 到有效的垂直定位,如圖中所示係為一較佳的實 施例,其係上、下成型兩道定位肋1 0 1 1及1 0 1 1 ’, 兩者間並成型為一滑槽1 0 1 2 ;請搭配參照「第6 圖」,圖中所示係為本創作之半成品示意圖,如 圖,組構時,係將發光二極體模組1 0 3的電路板 1031,由定位肋1011’的下方插置入管體101中, 由於管體101為圓形,故下半部管體101與定位 肋 1 0 1 1 ’之連接處,即形成定位點 a,如此,可 使電路板1 〇 3 1置入後,受到有效的垂直定位, 又,由於發光二極體模組1 0 3與驅動電路控制模 組1 0 4呈連接為一體狀,故,驅動電路控制模組 1 0 4亦可同時插置入滑槽 1 0 1 2中,且受到定位 肋1 0 1 1及1 0 1 1 ’的上、下限位,故,亦可受到良 好且有效的垂直定位,且兩者間受管體101的定 位肋 1 0 1 1分隔一適當距離,插置完成後,即如 圖中所示,如此,後續再對管體1 01兩端,分別 施以電性插接組(1 0 2、1 0 2 ’)的組設,即可製成一 10 M349465 發光二極體燈管。 請參閱「第 7圖」,圖中所示係為本創作的 一較佳實施例,如圖,本創作發光二極體燈管 10的結構中,由於其發光二極體模組 103的兩 端,係分別成型有一第一電性搭接部1 〇 3 1 1、及 一第二電性搭接部1 0 3 1 2,且其中一電性搭接部 可改良成連接器型式(或兩電性搭接部均為連接 器型式亦可),故,可使多組的發光二極體模組 1 0 3,相互以插接的方式,完成相對的電性搭接, 如本圖中所示,當另一管體20為較長尺寸的情 況下,例如,為原尺寸的兩倍,則可以一發光二 極體模組1 0 3,插接於另一發光二極體模組1 0 3 ’, 如圖,其組設時,係以發光二極體模組1 0 3 —端 的第二電性搭接部1 0 3 1 2,插接於另一發光二極 體模組 1 0 3 ’之一端的第一電性搭接部 1 0 3 1 1 ’, 兩者間均為連接器型式(即一公一母),故,僅需 相互組設後,即可完成電性搭接,又,組設時, 係可將其中一發光二極體模組 1 〇 3 ’先行插置入 管體20中,再將另一發光二極體模組103由管 體20的另一端,插置入管體20中,並使兩發光 二極體模組(1 0 3、1 0 3 ’)之間的電性搭接部(1 0 3 1 2、 1 0 3 1 1 ’),完成相對組合即可,如此,後續再對 管體2 0兩端,分別施以電性插接組(1 0 2、1 0 2 ’) 的組設,即可製成一發光二極體燈管 1 0 ;又, 11 M349465 發光二極體模組(1 〇 3、1 Ο 3 ’)之間的電性搭接部 (10 3 12、1 0 3 1 1 ’),係分別組設於發光二極體模組 (10 3、1 0 3 ’)的底面,如此,可使兩發光二極體模 組(1 0 3、1 0 3 ’)組設後,呈現無接缝形式,可確保 每一單顆發光二極體之間的間距相同,另,在各 電性搭接部(1 〇 3 1 2、1 0 3 1 1 ’)的設計上,可增加其 虛腳位(亦即沒作用的針腳),以增加其接插後的 穩固性;如上所述,雖有不同管體尺寸,然而只 要管體尺寸呈倍數,則發光二極體模組則僅需要 同一尺寸即可,可有效節省製造成本,且組裝容 易,亦可大幅降低製造成本。 請參閱「第 8圖」,圖中所示係為本創作的 另一較佳實施例,如圖,本創作中所稱的管體 1 0 (或 2 0亦同),其係由可透光的材料所製造而 成,製成時,可於管體101的近兩端的外環面上, 成型有一道以上的卡設部 1 0 1 3,且,於電性插 接組 1 0 2 ( 1 0 2 ’亦同)的内環面,成型有一個以上 的卡點1 0 2 1 1,如此,可使電性插接組1 0 2於蓋 設於管體101時,可藉由卡點10211卡設於管體 1 0 1的卡設部1 0 1 3,增加組裝之簡易性,又,亦 可成型有數個卡點10211,如此,可搭配不同管 體1 0 1之組裝深度,提升其組裝的便利性。 如上所述,本創作發光二極體燈管,主要係 在於其發光二極體模組的結構中,組設有一個以 12 M349465 上的電性搭接部,且此電性搭接部為可快速拆裝 的連接器型式,以使多組的發光二極體模組,可 藉由彼此之間之電性搭接部的連接,快速完成組 裝,且可因應不同長度管體的尺寸需求,可有效 的降低其製造成本,及提升其組裝的便利性;綜 上,本創作發光二極體燈管其據以實施後,確實 可以達到提供一種可以快速組構,且能因應燈管 _ 之管體長度,進行多組式串設的發光二極體燈管, 以提高製造時的組裝便利性,同時亦可大幅降低 其製造成本之目的。 唯,以上所述者,僅為本創作之較佳之實施 例而已,並非用以限定本創作實施之範圍;任 何熟習此技藝者,在不脫離本創作之精神與範 圍下所作之均等變化與修飾,皆應涵蓋於本創 作之專利範圍内。 _ 綜上,本創作係具有專利之新穎性、進步性、 以及對產業的利用價值;申請人爰依專利法之規 定,向 鈞局提起新型專利之申請。 13 M349465 【圖式簡單說明】 體外觀 第1圖,為本創作發光二極體燈管的立 圖。 第2圖,為本創作的構件組成示意圖。 立體外 第 3圖,為本創作中發光二極體模組的 觀圖。 第4圖,為本創作的立體外觀圖(二)。 _ 第5圖,為本創作中的管體之剖面圖。 第6圖,為本創作之半成品示意圖。 第7圖,為本創作的一較佳實施例。 第8圖,為本創作的另一較佳實施例。 【主要元件符號說明】 10 10 1 • ion 1 0 1 1 5 10 12 10 13 102 1021 10211 \02, 1 021 5 發光二極體燈管 管體 定位肋 定位肋 滑槽 卡設部 電性插接組 插接端子 卡點 電性插接組 插接端子 14 M349465 1 022 5 連 接 器 103 發 光 二 極 體 模 組 1 03J 發 光 二 極 體 模 組 1031 電 路 板 10311 第 電 性 搭 接 部 103115 第 < — 電 性 搭 接 部 103 12 第 二 電 性 搭 接 部 103 2 發 光 二 極 體 104 驅 動 電 路 控 制 模組 1041 電 性 搭 接 部 20 管 體 a 定 位 點M349465 VIII. New description: [New technical field] A light-emitting diode lamp is used to meet the needs of light source. This creation especially refers to a light-emitting diode as a light source, which is formed into a lamp type. The plurality of groups can be connected in series according to the length of the pipe body, and can be directly assembled in the LED lamp of the existing lamp holder. [Prior Art] In recent years, in view of the limited energy supply and the increasing shortage, the issue of energy conservation has become the goal of science and technology in the world, and it is competing for development and breakthrough. The application of LEDs in large quantities is an example. The finished product of the light-emitting diode has matured, and it has also been used by a large number of applications of "light demand". From the early sensing light source and the secondary light source to the present, it has begun to be applied to the light source of the main illumination. The main reason is that The current physical products of LEDs have gradually been able to meet the application of high illumination and high power. Therefore, if it is used as a lighting application, it is an indisputable fact that the lighting lamp is currently used. a closed gas discharge tube, the main gas in the tube is argon, and further contains neon or krypton, and additionally contains traces of mercury to form a trace amount of mercury vapor, which is conducted by the current in the tube. The electrons are accelerated to form a gas discharge state to emit "light". At present, such conventional 曰5 M349465 light tube system has been widely used. However, its problems include power consumption and pollution, while the light-emitting diodes have the advantages of energy saving and low pollution. Therefore, at present, there are precedents for making a light-emitting diode into a fluorescent tube on the market, for example, The Republic of China Patent Notice No. M2 7 2 9 2 4 "Improvement of LED Tube Structure", Announcement No. 3 2 0 6 3 "LED Tube Structure Improvement", both of which disclose a light-emitting diode The lamps are mainly made up of a circuit board, carrying a plurality of light-emitting diodes, and using the summed light source to meet the illumination illuminance requirements. In addition, in the Republic of China Patent Notice No. 315299 "Light-emitting diodes" The body lamp further discloses a lamp tube made of a light-emitting diode, and comprises a fin-type heat sink for the overall heat dissipation effect; the above-mentioned types of lamps are currently achieved. Mass production, only in the process, there is still room for improvement. As for the several types of lamps disclosed above, the length of the circuit board carrying the light-emitting diode is fixed, that is, a single-size circuit board. , Lamp can be used with a single size, type Ruoyu manufacturing longer tubes, the mold board about the need to re-open, so in the manufacturing cost will be greatly improved. [New content] In view of the above considerations, the creator is based on the experience of designing related products for many years, researching and analyzing the structure, composition, and manufacturing process of this type of lamp. It is possible to find 6 M349465 to be suitable. Solution; therefore, the author is mainly to provide a kind of light-emitting diode lamp which can be quickly assembled and can be arranged in multiple groups, and the assembly convenience is also greatly reduced, and the above-mentioned Purpose, the main structure of this creation, the characteristics of the circuit board structure, so that they can be set up quickly, and according to the length of the assembled lamp, the circuit board of the diode is connected in multiple groups. In order for your review board to have a clear understanding of the structure, composition and efficacy, please refer to the following instructions. [Embodiment] Please refer to "Figure 1", which shows a three-dimensional appearance of a photodiode lamp. In the figure, the LED lamp 10 is mainly composed of a tube electrically connected group (102). , 102'), a light-emitting diode selection, and a driving circuit control module 104, the assembled light-emitting diode module 1 0 3 and the driving circuit control # are set in the pipe body 1 0 1 , the pipe body 1 0 1 is a good polycarbonate resin (Polycarbonate), which is made of a diffusing agent, so that the light source of the LED can be uniformly dispersed by the light source, and the purpose of obtaining a good light distribution is to increase the manufacturing cost of the lamp length. Using the completion phase of the lamp junction speed to reduce the manufacturing cost of the carrier to reduce the manufacturing cost of the creation of the icon, please show this creation, the original 10 1 1 , two [module 103, formed, where I mode The group 1 0 4 is made of a light transmissive PC) material after infiltrating the tube body, so that when the 7 M349465 light emitting diode module 1 Ο 3 generates a light source, the uniform tube body 101 can be provided to provide illumination. The role of the light source, as shown in the figure, the electrical plugging group (1 0 2, 1 0 2 ') are respectively grouped The two ends of the body 101 are respectively formed with two plug terminals and 1021', and the light emitting diode lamp 10 can be inserted into one (not shown in the figure), and the lamp holder is Fluorescent lamp holder for the purpose. Please refer to "Fig. 2", which is a schematic diagram of the composition of the invented component. As shown in Figure 1, the illuminant module IO3 and the drive circuit control module 1024 are grouped. In the figure, as shown in the figure, the LED module 1 0 3 is a circuit board 1 0 3 1, mainly for carrying a plurality of illuminants 1032 (not shown in the figure), the circuit board 1031 is provided The complex array circuit, such as the AC circuit and the DC circuit, and the circuit may also include a series or a parallel type according to requirements, and the circuit board 1 0 3 1 system is provided with a first electrical overlapping portion 1 0 3 and a second electrical property. The lap portion 10312, wherein the first electrical connection portion 1 0 3 1 1 can electrically connect the circuit board 1 0 3 1 and the electrical insertion 1 0 2, and the second electrical lap portion 1 The circuit board 1 0 3 1 can be electrically connected to another electrical plug group 1 0 2 '; again, as shown in the figure, one end of the driving circuit module 104 is also formed with an electrical The connecting portion is configured to enable the driving circuit control module 104 to be electrically overlapped with the light emitting diode set 103, and the driving circuit is controlled to pass through, such as in front of the lamp holder of the tube 102 1 The two poles are provided with a two-pole fabric, etc., and the 11's lap joint group 03 12 completes the control 104 1 The phantom module 8 M349465 1 Ο 4 is also a circuit board type, which is designed after appropriate circuit design. Controlling the current conduction of the LED module 103, such as AC to DC; when assembling, the pre-formed LED module 1 0 3 and the driving circuit control module 1 0 4 Inserting into the pipe body 1 0 1 and using the positioning ribs 10 1 1 formed on the inner wall of the pipe body 1 0 1 to position the two inserted circuit boards, and then making two electrical plug groups (1 0 2, 1 0 2 '), respectively, after the two ends of the pipe body 10 1 are assembled, the assembly can be completed. After the assembly is completed, it is as shown in "1"; see also in this figure. The first electrical laps 1 0 3 U and the second electrical laps 1 0 3 1 2 at the two ends of the LED module 103 can be one of the first and the other. (1 0 2, 1 0 2 ') The pre-assembly is completed, and the whole body is assembled in the pipe body 101, and then the other end is electrically connected to another electrical lap joint. That is, in order to make the assembly process more convenient, the structure between the electrical lap and the electrical plug-in group can be designed as a connector type (such as the connector 1022' in the figure), so In the process of assembly, it will be more simple and can effectively increase the assembly speed. Please refer to "Fig. 3", which shows the stereoscopic appearance of the LED module in the creation. As shown in the figure, on the 1 0 3 plane of the LED module, a plurality of LEDs are arranged. The polar body 1032 and each of the light-emitting diodes 1032 are electrically connected to each other by the circuit 1031 to form a surface light source after being electrically connected, and the light-emitting two body 1 0 3 disclosed in the present invention. The form of the 2 9 M349465 is a surface-adhesive type (SMD). It can also be made of a bulb-type light-emitting diode (Lamp). Please refer to the "4th figure", as shown in the figure. Appearance (2). Please refer to "Fig. 5", which is a cross-sectional view of the pipe body in the present drawing. As shown in the figure, the inner wall surface of the pipe body 101 is formed with a set of relative positioning ribs 1 0 1 1 for the light emitting diode. When the body module 1 0 3 and the driving circuit control module 104 are assembled, they can be effectively vertically positioned. As shown in the figure, a preferred embodiment is used to form two positioning ribs up and down. 1 0 1 1 and 1 0 1 1 ', the two are formed into a chute 1 0 1 2; please refer to the "6th figure", which is a schematic diagram of the semi-finished product of the creation, as shown in the figure, In the case of the structure, the circuit board 1031 of the light-emitting diode module 103 is inserted into the tube body 101 from below the positioning rib 1011'. Since the tube body 101 is circular, the lower half tube body 101 and The connection point of the positioning rib 1 0 1 1 ', that is, the positioning point a is formed, so that the circuit board 1 〇3 1 can be placed after the effective vertical positioning, and the light-emitting diode module 1 0 3 The driving circuit control module 104 is connected in a single body, so that the driving circuit control module 104 can also be inserted into the chute 1 0 1 2 at the same time, and is determined The upper and lower limits of the ribs 1 0 1 1 and 1 0 1 1 ', therefore, can also be well and effectively positioned vertically, and the positioning ribs 1 0 1 1 of the tube body 101 are separated by an appropriate distance therebetween. After the completion of the setting, as shown in the figure, the subsequent setting of the electrical plugging group (1 0 2, 1 0 2 ') to the two ends of the pipe body 01 can be made into one. 10 M349465 LED light tube. Please refer to "FIG. 7", which is a preferred embodiment of the present invention. As shown in the figure, in the structure of the light-emitting diode lamp 10, two of the LED modules 103 are a first electrical lap joint 1 〇31 1 and a second electrical lap joint 1 0 3 1 2 are respectively formed, and one of the electrical lap joints can be improved into a connector type (or The two electrical laps are all connector types. Therefore, multiple sets of LED modules 1 0 3 can be connected to each other to form a relative electrical connection, as shown in the figure. As shown in the figure, when the other tube 20 is of a longer size, for example, twice the original size, one LED module 1 0 3 can be inserted into another LED module. The group 1 0 3 ', as shown in the figure, is connected to the second electrical lap of the light-emitting diode module 1 0 3 - end, and is connected to another light-emitting diode module. The first electrical lap 1 0 3 1 1 ' at one end of the group 1 0 3 ' is a connector type (ie, one male and one female), so it can be completed only after being assembled with each other. Electrical bonding And, when assembled, one of the light-emitting diode modules 1 〇 3 ' can be inserted into the tube body 20 first, and the other light-emitting diode module 103 is connected to the other end of the tube body 20, Inserted into the tube body 20 and electrically connected between the two LED modules (1 0 3 1 , 1 0 3 ') (1 0 3 1 2, 1 0 3 1 1 '), The relative combination can be completed. Thus, a pair of electrically connected groups (1 0 2, 1 0 2 ') can be respectively applied to both ends of the tube body 20 to form a light-emitting diode lamp. Tube 1 0 ; again, the electrical lap joints (10 3 12, 1 0 3 1 1 ') between the 11 M349465 light-emitting diode modules (1 〇 3, 1 Ο 3 ') are respectively set up in The bottom surface of the light-emitting diode module (10 3 , 1 0 3 '), so that the two light-emitting diode modules (1 0 3, 1 0 3 ') can be assembled and presented in a seamless form. Ensure that the spacing between each individual LEDs is the same, and that the design of each electrical lap (1 〇 3 1 2, 1 0 3 1 1 ') can increase its virtual position (also That is, the stitches that have no effect) to increase the stability after plugging; Although there are different tube sizes, as long as the tube size is a multiple, the LED module only needs the same size, which can effectively save manufacturing costs, and is easy to assemble, and can greatly reduce the manufacturing cost. Please refer to "Fig. 8", which is a preferred embodiment of the present invention. As shown in the figure, the pipe body 10 (or the same as 20) is referred to in the present invention. The light material is manufactured, and when formed, more than one card portion 1 0 1 3 can be formed on the outer ring surface of the proximal end of the tube body 101, and the electrical plug group 1 0 2 The inner ring surface of (1 0 2 'is the same) is formed with more than one card point 1 0 2 1 1 , so that the electrical plug group 1 0 2 can be placed on the tube body 101 by The card point 10211 is clamped on the latching portion 1 0 1 3 of the pipe body 1 0 1 to increase the ease of assembly, and a plurality of card points 10211 can be formed, so that the assembly depth of the different pipe bodies 1 0 1 can be matched. To improve the convenience of its assembly. As described above, the light-emitting diode lamp of the present invention is mainly in the structure of the light-emitting diode module, and an electrical lap portion on the 12 M349465 is provided, and the electrical lap is Quick-disconnectable connector type, so that multiple sets of LED modules can be assembled quickly by the connection of the electrical laps between them, and can meet the size requirements of different lengths of tubes The utility model can effectively reduce the manufacturing cost and improve the convenience of assembly; in summary, the light-emitting diode lamp of the present invention can be realized after being implemented, and can provide a rapid configuration and can respond to the lamp _ The length of the tube body is performed by a plurality of sets of light-emitting diode lamps, so as to improve the assembly convenience at the time of manufacture, and at the same time, the manufacturing cost thereof can be greatly reduced. The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent. _ In summary, the creative department has the novelty, advancement, and use value of the patent; the applicant filed a new patent application with the bureau in accordance with the provisions of the Patent Law. 13 M349465 [Simple description of the figure] Body appearance Figure 1 is an elevation of the light-emitting diode lamp. Figure 2 is a schematic diagram of the components of the creation. Stereoscopic Figure 3 is a view of the LED module in the creation. Figure 4 is a three-dimensional appearance of the creation (2). _ Figure 5 is a cross-sectional view of the pipe body in the creation. Figure 6 is a schematic diagram of the semi-finished product of the creation. Figure 7 is a preferred embodiment of the present invention. Figure 8 is another preferred embodiment of the present invention. [Main component symbol description] 10 10 1 • ion 1 0 1 1 5 10 12 10 13 102 1021 10211 \02, 1 021 5 Light-emitting diode lamp tube positioning rib positioning rib chute clamping part electrical plug Group plug-in terminal card point electrical plug-in group plug-in terminal 14 M349465 1 022 5 Connector 103 Light-emitting diode module 1 03J Light-emitting diode module 1031 Circuit board 10311 Electrical-bonded portion 103115 Section < - Electrical lap 103 12 Second electrical lap 103 2 Light-emitting diode 104 Drive circuit control module 1041 Electrical lap 20 Body a Locating point
1515